Nonvolatile and Cryogenic-Compatible Quantum Memory Devices (QuMEM)
Abstract
This technical report presents the progress of the Space and Naval Warfare Systems Center Pacific (SSC Pacific) Nonvolatile and Cryogenic-Compatible Quantum Memory Devices (QuMEM) research project supported by the Navys Science and Technology (S and T) In-house Laboratory Independent Research (ILIR) Program. This report provides background information, motivation, technical progress, and technology transition efforts conducted throughout Fiscal Year (FY) 2014.The primary objective of the QuMEM project is to design and implement novel concepts, designs for solid-state, cryogenic compatible quantum memory device chips where writing, reading, and erasing operations perform using fast (psec), low-voltage (mV) electrical pulses generated by on-chip computational devices. Here, quantum states are generated, tuned, and stored for computation. We increase the understanding of the memory storage process by characterizing the charging/discharging process, retention time, and endurance and how it correlates with design-driven theoretical calculations.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jun 01, 2016
- Accession Number
- AD1010430
Entities
People
- Anna L. De Escobar
- Benjamin Taylor
- Bruce Offord
- Dave Rees
- Fernando Escobar
- Kenneth Simonsen
- Marcio De Andrade
- Osama M. Nayfeh
- Sam Kassenge
- Shahrokh Naderi
- Son Dinh
- Stephanie Claussen
- Susan Berggren
Organizations
- Naval Information Warfare Center Pacific